Three-Dimensional Stress Intensity Factor Correction Method Based on Thickness Size Effect

Author:

Zhang Xiaochen1ORCID,Li Hanwen1,Meng Weiying1ORCID,Zhang Tian1,Liu Zhenpeng2,Lv Xiao3

Affiliation:

1. School of Mechanical Engineering, Shenyang Jianzhu University, Mailing Address: No. 25 Hunnan Middle Road, Hunnan District, Shenyang 110168, China

2. Shenyang Jianzhu University, Mailing Address: No. 25 Hunnan Middle Road, Hunnan District, Shenyang 110168, China

3. Shanghai MicroPort Medical (Group) Co, Ltd., ZhangDong Rd, ZJ Hi-Tech Park, Shanghai 201203, China

Abstract

This paper presents the fatigue crack growth test of 7N01 aluminum alloy specimens with different thicknesses under three-point bending. Moreover, the effect of specimen thickness on the fatigue crack growth life was analyzed. The influence mechanism of the thickness size effect on the stress intensity factor was explored. A three-dimensional stress intensity factor calculation model based on the thickness size effect was proposed by combining the finite element method and the interaction integral method. The results show that the fatigue crack growth life of 7N01 aluminum alloy decreases with the increase of specimen thickness. The numerical solutions of the stress intensity factor (the proposed model) are higher than the analytical solutions (the traditional formula) in the steady-state crack growth stage. The difference between numerical solutions and analytical solutions increases with the increase of crack growth length and specimen thickness. Compared with the analytical solutions, the relationship curve between crack length “a” and cycle number “N” from the numerical solutions is closer to the experimental data. This result proves that the proposed calculation model can correct the stress intensity factor with the thickness size effect.

Funder

National Natural Science Foundation of China

Publisher

Hindawi Limited

Subject

General Engineering,General Materials Science

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